The freezing point of a solution contain...

The freezing point of a solution containing `50 cm^(3)` of ethylene glycol in `50 g` of water is found to be `-34^(@)C`. Assuming ideal behaviour, Calculate the density of ethylene glycol `(K_(f)` for water = `1.86 K kg mol^(-1)`).

Text Solution

AI Generated Solution

To solve the problem, we will follow these steps: ### Step 1: Calculate the change in freezing point (ΔTf) The freezing point of pure water is 0°C, and the freezing point of the solution is -34°C. Therefore, the change in freezing point is: \[ \Delta T_f = 0 - (-34) = 34°C \] ...

Topper's Solved these Questions

SOLUTIONS
CENGAGE CHEMISTRY ENGLISH|Exercise Solved Examples|40 Videos
SOLUTIONS
CENGAGE CHEMISTRY ENGLISH|Exercise Exercises (Linked Comprehension)|58 Videos
SOLID STATE
CENGAGE CHEMISTRY ENGLISH|Exercise Ex 1.2 (Objective)|9 Videos
SURFACE CHEMISTRY
CENGAGE CHEMISTRY ENGLISH|Exercise Archives Subjective|2 Videos

Similar Questions

Explore conceptually related problems

The freezing point of a solution containing 0.1g of K_3[Fe(CN)_6] (Mol. Wt. 329) in 100 g of water ( K_f =1.86K kg mol^(−1) ) is:

The freezing point of a solution containing 5.85 g of NaCl in 100 8 of water is -3.348^(@)C . Calculate van't Hoff factor for this solution. What will be the experimental molecular weight of NaCl? ( K_(f) for water = 1.86 K kg mol^(-1) , at. wt. Na = 23, Cl = 35.5)

The freezing point of a solution that contains 10 g urea in 100 g water is ( K_1 for H_2O = 1.86°C m ^(-1) )

Calculate the freezing point of an aqueous solution containing 10.5g of Magnesium bromide in 200 g of water, assuming complete dissociation of Magnesium bromide. (Molar mass of magnesium bromide =184 g mol ^(-1) , for water =1.86K kg mol^(-) ).

A solution containing 1.8 g of a compound (empirical formula CH_(2)O ) in 40 g of water is observed to freeze at -0.465^(@) C. The molecules formulea of the compound is ( K_(f) of water =1.86kg K mol^(-1) ):

45 g of ethylene glycol (C_(2) H_(6)O_(2)) is mixed with 600 g of water. The freezing point of the solution is (K_(f) for water is 1.86 K kg mol^(-1) )

A solution containing 62 g ethylene glycol in 250 g water is cooled to -10^(@)C . If K_(f) for water is 1.86 K mol^(-1) , the amount of water (in g) separated as ice is :

In winter, the normal temperature in Kullu valley was found to be -11^(@)C . Is a 28% (by mass) aqueous solution of ethylene glycol suitable for a car radiator ? K_(f) for water = 1.86 "K kg mol"^(-1) .

The amount of ice that will separate out from a solution containing 25 g of ethylene glycol in 100 g of water that is cooled to -10^(@)C , will be [Given : K_(f) "for" H_(2)O = 1.86K mol^(-1) kg ]

CENGAGE CHEMISTRY ENGLISH-SOLUTIONS-Ex 2.3 (Objective)

The freezing point of a solution containing 50 cm^(3) of ethylene glyc...
Text Solution
|
The molal elevation constant of water =0.52 K m^(-1). The boiling poin...
Text Solution
|
The ratio of freezing point depression values of 0.01 M solutions of u...
Text Solution
|
From a measurement of the freezing point depression of benzene, the mo...
Text Solution
|
An aqueous solution containing an ionic salt having molality equal to ...
Text Solution
|
The Van't Hoff factor of a 0.1 M Al(2)(SO(4))(3) solution is 4.20. The...
Text Solution
|
The degree of dissociation alpha of a week electrolyte is where n is...
Text Solution
|
Increasing amount of solid Hgl(2) is added to 1 L of an aqueous soluti...
Text Solution
|
Equimolal solutions KCl and compound X in water show depression in fre...
Text Solution
|
Arrange the following solutions as: Increasing order of boiling poin...
Text Solution
|